[1]胡文平,李文海,候忠祥,等.西藏玉米地方品种配合力分析[J].黑龙江农业科学,2023,(06):12-18.[doi:10.11942/j.issn1002-2767.2023.06.0012]
 HU Wenping,LI Wenhai,HOU Zhongxiang,et al.Combining Ability of Tibetan Maize Landraces[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(06):12-18.[doi:10.11942/j.issn1002-2767.2023.06.0012]
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西藏玉米地方品种配合力分析

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2023年06 页码: 12-18 栏目: 出版日期: 2023-06-10
Title:
Combining Ability of Tibetan Maize Landraces
文章编号:
3
作者:
胡文平李文海候忠祥普布桑珠宗巴吉李梦寒
西藏农牧学院 植物科学学院,西藏 林芝 860000
Author(s):
HU Wenping LI Wenhai HOU Zhongxiang Phurbu Samdrup ZONG Baji LI Menghan
College of Plant Science, Tibet Agricultural and Animal Husbandry University, Nyingchi 860000,China
关键词:
西藏玉米一般配合力特殊配合力
Keywords:
Tibet maize general combining ability (GCA) specific combining ability (SCA)
DOI:
10.11942/j.issn1002-2767.2023.06.0012
文献标志码:
A
摘要:
为筛选具有遗传优势的西藏玉米地方品种,以西藏6份地方品种自交系为母本,5份杂交种为父本,用不完全双列杂交技术组配的30份杂交组合的F1代11个农艺性状进行亲本一般配合力和杂交组合F1代特殊配合力分析。结果表明,一般配合力较高的亲本DF125、DF128可作为选配优良品种的亲本;特殊配合力较高的杂交组合F1代DF220×兆和A79可作为高产杂交组合组配高产品种,DF125×五谷703,DF128×吉单12,DF125×五谷214,DF135×吉单17,DF174×吉单12可组配中高产品种。
Abstract:
In order to evaluate genetic advantages from Tibetan maize landraces, 6 Tibetan maize landraces and 5 hybrids were selected. A total of 30 hybrid combinations were prepared by incomplete two-row cross technology. The general combining ability(GCA) of parents and the special combining ability(SCA) of F1 with 11 agronomic traits were analyzed. The results showed that DF125 and DF128 which had higher GCA effect values could be used as parents for cross breeding; The F1 of cross combinations with higher special cooperating power DF220×Zhaohe A79 can be used as high-yielding cross combinations to match high-yielding variety, DF125×Wugu 703, DF128×Jidan 12, DF125×Wugu 214, DF135×Jidan 17, DF174×Jidan 12 can be used to match medium-high yielding varieties in Tibet.

参考文献/References:

[1]魏颖.我国主要粮食作物成本收益问题研究——基于四川省中籼稻、小麦、玉米数据的分析[J].价格理论与实践,2021(S1):115-119.[2]刘婷婷,仝涛,黄昆仑.转基因玉米的研究进展和食用安全性评价[J].生物技术进展,2022,12(4):523-531.[3]李婷婷,李文娟.我国玉米空间格局演变及其影响因素研究进展[J].中国农业资源与区划,2021,42(2):87-95.[4]THUDI M,PALAKURTHI R,SCHNABLE J C,et al.Genomic resources in plant breeding for sustainable agriculture[J].Journal of Plant Physiology,2021,257:153351.[5]WAQAS M A,WANG X,ZAFAR S A,et al.Thermal stresses in maize:effects and management strategies[J].Plants (Basel),2021,10(2):293.[6]杨春艳,沈渭寿,林乃峰.西藏高原气候变化及其差异性[J].干旱区地理,2014,37(2):290-298.[7]吴绍洪,尹云鹤,郑度,等.青藏高原近30年气候变化趋势[J].地理学报,2005,60(1):3-11.[8]陈宝雄,王景升,冉琮千,等.1954-2009年藏东南林区的气候变化特征[J].气候变化研究进展,2012(1):43-47.[9]扎西拉宗,牛磊,云丹扎西,等.西藏青饲玉米栽培技术[J].现代农村科技,2021(11):18.[10]德吉措姆,赵江涛,成海建,等.西藏日喀则地区不同品种全株玉米青贮的营养价值评定[J].山东农业科学,2019,51(1):142-146.[11]邵荣华,刘翠花,王改花,等.不同覆盖材料对西藏林芝土壤温湿度及玉米生长发育的影响[J].西藏农业科技,2018,40(1):22.[12]吴金次仁,依斯玛,强巴曲珍.西藏玉米地膜覆盖高产栽培技术[J].种子世界,2015(7):42-44.[13]刘亚利,张述宽,苏琪,等.16个玉米自交系的配合力效应及其聚类分析[J].南方农业学报,2011,42(6):578-581.[14]隋冬华,唐贵,武新娟,等.19个早熟玉米自交系改良德美亚3号主要农艺性状的配合力分析[J].黑龙江农业科学,2020(9):27-30.[15]闫文芝,王瑞莲,王永行,等.几个玉米自交系材料的配合力分析[J].种子,2016,35(9):98-101.[16]张雪梅,姚文华,谭静,等.温带高油玉米自交系与热带玉米自交系配合力分析[J].玉米科学,2010,18(2):5-10.[17]王亮,景希强,周旭梅,等.13个玉米自交系配合力及通径分析[J].农业科技与装备,2009(4):1-4.[18]杨爱国,张世煌,李明顺,等.CIMMYT和我国玉米种质群体的配合力及杂种优势分析[J].作物学报,2006,32(9):1329-1337.[19]许智宏.中国农业的发展现状与未来趋势[J].中国农业文摘-农业工程,2020,32(6):3-4.[20]张洋.几个玉米自交系主要性状的配合力分析[J].种子,2018,37(6):7-9.[21]石云素.玉米种质资源描述规范和数据标准[M].北京:中国农业出版社,2006:14-23.[22]姚玉波,赵东升,刘继忠,等.13份玉米自选系配合力分析[J].黑龙江农业科学,2022(8):91-95.[23]李顺富.鲜食糯玉米主要性状遗传与杂种优势利用研究[D].长春:吉林农业大学,2011.[24]张振良,薛林,黄小兰,等.10个糯玉米自交系育种潜力分析[J].南方农业学报,2017,48(9):1560-1567.[25]龙风,李承波,彭忠华.6个新选玉米自交系的配合力分析[J].种子,2021,40(8):111-115.

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备注/Memo

收稿日期:2023-01-03

基金项目:西藏自治区自然科学基金-农牧学院厅校联合基金项目(XZ202101ZR0111G)。
第一作者:胡文平(1998-),女,硕士研究生,从事高原作物栽培和选育研究。E-mail:1347848904@qq.com。
通信作者:李梦寒(1984-),女,硕士,副教授,从事高原作物栽培和选育研究。E-mail:limenghan009@163.com。

更新日期/Last Update: 2023-06-10